NO321979B1 - A pipeline coupling frame, a coupling device comprising such a pipeline coupling frame, and a pipeline termination - Google Patents

Description

The scope of the invention and the state of the art

The present invention relates to a pipeline connection frame according to the preamble to claim 1, as well as a connection device comprising such a pipeline connection frame for connecting a pipeline to a pipe fitting on the seabed. The invention also relates to a method according to the preamble to claim 18, for connecting a pipeline to a pipe fitting on the seabed. The invention also relates to a pipeline arrangement according to the preamble of claim 23.

Developments in offshore oil and gas exploration in recent years have been aimed at underwater or seabed installations for processing and transporting oil and gas. These underwater installations replace the traditional platforms, where oil and gas were transported up to the platform for further treatment and transport. This development of underwater production, processing and transport systems has led to an increasing need for underwater connecting devices for connecting a longer pipeline installed on the seabed and a so-called pipe pass piece, without the need for diver assistance. A pipe fitting is used to connect a pipeline end connection to a pipe end connection on an underwater installation, for example a production or injection well on the seabed. The pipe fitting is adapted to extend between the end points of the pipeline termination and the pipe end coupling to complete a connection between the pipeline and the pipe. The pipe fitting is equipped with a pipe fitting boss which must cooperate with a corresponding pipeline boss arranged at the pipeline end connection.

A pipeline connection device and a method for underwater connection of a pipeline to a pipe fitting are previously known from US patent no. 4,019,334 A. The pipe fitting boss is here attached to a foundation which is arranged on the seabed. The pipeline boss is attached to a pivot assembly and is installed on the subsea foundation by being submerged together with the subsea assembly from a surface vessel which is steered by means of a control or guide cable. After the pipeline boss and pivot assembly have been placed on the seabed foundation and secured thereto, a remote-controlled coupling tool is lowered from the surface vessel and caused to displace the pipe fitting boss into engagement with the pipeline boss, after which the coupling tool is caused to activate a tensioning device to thereby clamp the pipe fitting boss together and the pipeline boss. The coupling tool is then pulled up to the surface vessel. This known connection device and method requires that the pipe fitting and the underwater foundation be installed on the seabed before the pipeline is laid on the seabed and the pipeline end section equipped with the pipeline boss must be attached to the underwater foundation before the rest of the pipeline is laid on the seabed. Consequently, this known connection device and method is not suitable for use when connecting a pipe fitting to a pipeline that has previously been laid on the seabed.

Another connection device for underwater connection of a pipeline to a pipe fitting is previously known from US patent no. 6,142,708 A. The pipeline boss is here attached to a landing platform [landing platform] which is to be lowered onto the seabed from a surface vessel. The pipe fitting boss is attached to a coupling tool which is lowered onto the landing platform until it rests thereon, after which the coupling tool is caused to displace the pipe fitting boss into engagement with the pipeline boss. The pipeline boss is attached to the rather complicated and large landing platform before it is lowered into the sea from a surface vessel. The laying ramp and other equipment on the pipe-laying vessel must be adapted and dimensioned to enable handling and laying out of the landing platform. This will increase the pipe-laying vessel's costs and reduce the number of vessels available for the pipe-laying operation, which can lead to high costs for carrying out the pipe-laying operation.

Summary of the Invention

The purpose of the present invention is to enable the underwater connection of a pipeline to a pipe fitting, without the need for complicated and/or bulky equipment to be attached to the pipeline end section before it is submerged in the sea from a surface vessel.

According to the invention, this purpose is achieved with a pipeline connection frame which has the features specified in claim 1, a coupling device with the features specified in claim 9 and a method with the features specified in claim 18.

The pipeline connection frame according to the invention is constructed in such a way that a pipeline end section can be mounted to it underwater, by immersing the pipeline end section in a seat on one or more holding devices on the pipeline connection frame and then displacing the pipeline connection frame along the pipeline end section so that the respective seat is brought into engagement with a device member which is fixed around the pipeline end section to thereby fix the pipeline end section axially and radially in relation to the pipeline coupling frame. Once the pipeline end section has been attached to the pipeline coupling frame, a pipe fitting coupling structure carrying the pipe fitting boss and a clamping device can be connected to the pipeline coupling frame by being lowered into engagement with it. After receiving the pipe fitting coupling structure on the pipeline coupling frame, the actual connection of the pipeline boss to the pipe fitting boss can be performed by displacing the pipe fitting coupling structure and the pipeline coupling frame relative to each other to thereby bring the pipeline boss and the pipe fitting boss into contact with each other, after which the clamping device which is preferably brought into position during the same operation, is activated to thereby clamp the pipeline boss and the pipe fitting boss together. The entire pipeline can be laid out on the seabed before the work to connect the pipeline to the pipe fitting begins. With the solution according to the invention, it is not necessary to attach a landing platform or similar construction to the pipeline end section when it is submerged from the pipeline laying vessel, which will facilitate the pipeline laying operation and allow the laying of the pipeline by means of a conventional pipeline laying vessel with possibilities related to the pipeline size instead of to the pipe seal end connector. The solution according to the invention will thus reduce the requirements for the pipeline vessel with regard to its equipment, compared to the solutions according to the state of the art, where a landing platform or the like is attached to the pipeline end section before it leaves the pipeline vessel.

According to a preferred embodiment of the pipeline-connecting frame according to the invention, the seat of the respective holding devices is designed for engagement with a rotationally symmetrical alignment element that is attached around the pipeline end section, the seat having a shape that allows the seat to cooperate with the rotationally symmetrical alignment element. Thereby, the seat of the respective holding device can occupy the pipeline end section and be connected to the corresponding aligning element on the pipeline end section regardless of the roll angle of the pipeline end section. Consequently, the roll angle of the pipeline end sexjoii has no significance during the installation of the pipeline on the seabed and during the subsequent operations of connecting the pipeline boss to the pipe fitting boss. Thus, the pipeline end section can be laid on the seabed with an arbitrary roll angle, which will facilitate the pipe laying operation.

According to a preferred embodiment of the coupling device according to the invention, the pipeline coupling frame and the pipe fitting coupling structure are equipped with corresponding aligning elements, which are designed to allow contact with each other when the pipe fitting coupling structure and the pipeline coupling frame are displaced relative to each other to thereby reduce the angle between the boss contact fleets. Thereby, the pipeline boss will automatically be sufficiently aligned in line with the pipe fitting boss to come within the clamping device's closing catch area when the terminations [terminations] have been shifted into contact with each other.

According to another preferred embodiment of the coupling device according to the invention, one of the pipeline coupling frame and the pipe fitting coupling construction is equipped with at least one male-like aligning element, preferably in the form of a spear, which is designed to fit into a corresponding female-like aligning element , preferably in the form of a spear funnel, arranged on the other of the pipeline connecting frame and the pipe fitting end structure. This will provide a coaxial alignment that allows the bosses' mutual alignment shoulder/seat arrangement to perform the final alignment and load transfer.

Further advantages and advantageous features of the pipeline connection frame, the connection device and the method according to the present invention will be apparent from the following description and the independent claims.

The invention also relates to a pipeline termination which includes the features according to claim 23. The pipeline termination is constructed so that the end section of the pipeline on the seabed can be mounted to a pipeline connection frame according to the present invention.

According to a preferred embodiment of the pipeline termination according to the invention, the respective alignment element is rotationally symmetrical. Thereby, the roll angle of the pipeline end connection will not have any significance during the installation of the pipeline on the seabed and during the subsequent operations for mounting the pipeline end section to the pipeline connection frame. The pipeline termination can thus be laid on the seabed at any rolling angle, which will facilitate the laying operation.

Brief description of the drawings

With reference to the accompanying drawings, a special one follows below

description of preferred embodiments of the invention given as examples.

In the drawings:

Fig. 1 is a perspective view of a pipeline connection frame according to an embodiment of the invention, Fig. 2 is a perspective view of the pipeline connection frame according to Fig. 1 and a pipeline end section to be mounted on the pipeline connection frame, Figs 3-5 are perspective views of the pipeline connection frame and the pipeline end section according to Fig. 2, seen during various steps in the assembly of the pipeline end section to the pipeline connection frame, Fig. 6 is a sectional plan view of part of a holding device in the pipeline connection frame according to Fig. 1- 5 and an attached pipeline boss, Fig. 7 is a perspective view of a pipe fitting connector assembly intended to cooperate with the pipeline connector frame of Figs. 1-5, and Figs. 8-10 are perspective views of the pipeline connector frame of Figs. 1-5 and the pipe fitting connector construction according to Fig. 7, seen during various stages of the connection of a pipeline to a pipe fitting.

Detailed description of preferred embodiments of the invention

A pipeline connection frame 1 according to an embodiment of the present invention is shown in Fig. 1. The connection frame 1 is intended for use in underwater connection of a pipeline 2 to a pipe fitting. The connecting frame 1 must be mounted to a pipeline end section 2a in order to thereby support the pipeline end section during the connection of an associated pipeline boss 2b to a corresponding pipe fitting boss (see Fig. 2). The coupling frame 1 in Fig. 1 comprises two holding devices 4a, 4b for securing the pipeline end section 2a and the associated pipeline boss 2b to the coupling frame in a predetermined orientation in relation to the coupling frame. The respective holding device 4a, 4b is equipped with a pipeline receiving seat 5a, 5b with an upward opening 6a, 6b. The pipeline end section 2a can be introduced on the seabed through the respective opening 6a, 6b by being submerged in a direction mainly perpendicular to its own longitudinal axis to thereby be received in said seats 5a, 5b. The seats 5a, 5b in the respective holding device 4a, 4b are designed for engagement with an alignment element 2c, 2d which is fixed around the pipeline end section 2a by displacing the pipeline coupling frame 1 in the longitudinal direction of a pipeline end section which is occupied in the seats 5a of the holding devices 4a, 4b, 5b to thereby fix the pipeline end section 2a axially and radially in relation to the holding devices 4a, 4b and consequently in relation to the pipeline connection frame 1. The connection frame 1 comprises a support frame 7 to which the holding devices 4a, 4b are attached. The support frame 7 is designed to allow the coupling frame 1 to rest on the seabed.

The holding devices 4a, 4b are arranged on the upper side of the bottom frame 7, behind each other in such a way that their seats 5a, 5b are mutually aligned, i.e. in such a way that the center axes of the seats coincide, so that a pipeline end section 2a is allowed to extend in a straight line through the seats 5a, 5b of both holding devices. In the embodiment shown, the bottom frame 7 is equipped with one towing eye 18a which makes it possible to move the coupling frame 1 by towing when it is installed on the seabed, as well as a number of lifting lugs 18b which are used when lowering the coupling frame 1 to the seabed.

The coupling frame 1 is equipped with locking means 8 for locking a pipeline end section axially in relation to the coupling frame 1 when the seat 5a, 5b of the respective holding device 4a, 4b has come into firm engagement with the pipeline end section's corresponding alignment element 2c, 2d. In the embodiment shown, the locking means 8 comprise two displaceable locking elements 8a, 8b which are arranged on the holding device 4a which must engage with the device element 2c which is closest to the pipeline boss 2b. This holding device 4a is hereinafter referred to as "first holding device", while the second holding device 4b is referred to as "second holding device". The locking elements 8a, 8b are located on opposite sides of the seat 5a to the first holding device 4a and are spring-loaded in a direction towards the central axis of the seat 5a. The locking elements 8a, 8b are suitably designed for engagement with a flange 2e (see Fig. 6) which is arranged on the pipeline end section fixedly secured in relation to the pipeline boss 2b in order thereby to lock the pipeline end section 2a and the pipeline boss 2b in relation to the first holding device 4a and consequently in relation to the coupling frame 1 in a predetermined axial position. In the embodiment shown, the respective locking element 8a, 8b is displaceable in and out of engagement with the flange 2e. In Fig. 6, one 8a of the locking elements is shown in the forward toe position, in which position the flange 2e is locked. in place between the locking element 8a and a device 9 on the first holding device 4a, while the second locking element 8b is shown in a retracted position, in which position the locking element 8b is not engaged with the flange 2e.

The respective holding device 4a, 4b is appropriately equipped with two opposing control surfaces 10a, 10b which are connected to the upwardly facing opening 6a, 6b to the seat 5a, 5b of the holding device and which slope towards each other in a downward direction, thereby contributing to the control of the pipeline end section 2a through the opening 6a, 6b and into the holding device's seat 5a, 5b.

It will be clear that the seat 5a, 5b of the respective holding device 4a, 4b must have an internal shape which allows the seat to cooperate with the corresponding alignment element 2c, 2d of the pipeline end section when the seat is brought into engagement with this by displacement of the coupling frame 1 in relation to the pipeline end section 2a. The respective seat 5a, 5b must thus have a cross-sectional shape that corresponds to the cross-sectional shape of the corresponding aligning element 2c, 2d. The seat 5a, 5b of the respective holding device 4a, 4b is preferably designed for engagement with a rotationally symmetrical alignment element 2c, 2d. The respective seat 5a, 5b preferably has a substantially circular cross-sectional shape with an upward opening, as shown in Fig. 1-5. It should be understood that the width of the upwardly facing opening 6a, 6b in the respective seat 5a, 5b shall be smaller than the diameter of the seat 5a, 5b and smaller than the largest diameter of the associated alignment element 2c, 2d, but larger than the diameter of the pipeline 2 It should also be understood that the diameter of the respective seat 5a, 5b must be larger than the diameter of the pipeline 2. In the embodiment shown, the respective seat 5a, 5b is designed as a recess in the associated holding device 4a, 4b.

A pipeline termination 2f according to the present invention is shown in Fig. 2-6. The pipeline termination 2f is designed to (is to be applied to) be used in connection with the end section of a pipeline 2 to thereby enable underwater connection of the pipeline to a pipeline connection frame 1. The pipeline termination 2f is designed to cooperate with a connection frame 1 according to the present invention . The pipeline termination 2f comprises a pipeline boss 2b which is designed for connection to a corresponding pipe fitting boss. The pipeline termination 2f further comprises a flange 2e located behind the pipeline boss 2b and designed to form a locking shoulder which is intended to cooperate with the coupling frame 1's locking means 8 to fix the pipeline end section axially in relation to the coupling frame. The flange 2e is fixed in relation to the pipeline boss 2b and is preferably rotationally symmetrical. The pipeline termination further comprises a first aligning element 2c which is attached to it

the pipeline end section behind the pipeline boss 2b and designed to cooperate with the seat 5a of the pipeline coupling frame first holding device 4a, and a

second aligning element 2d which is attached to the pipeline end section behind the first aligning element 2c at a distance therefrom and designed to cooperate with the seat 5b of the pipeline coupling frame's second holding device 4b. In the embodiment shown, the respective aligning element 2c, 2d is constructed as a sleeve-shaped or ring-shaped element that encloses the pipeline end section. The respective alignment element 2c, 2d is preferably rotationally symmetrical. In the embodiment shown, the flange 2e lies between the pipeline boss 2b and the first aligning element 2c. The flange 2e is suitably attached to the pipeline boss 2b, for example by means of bolts 12, as shown in Fig. 6. The respective aligning element 2c, 2d is suitably provided with a cone-shaped surface 2ci, 2di at the end facing away from the pipeline boss 2b thereby facilitating mutual engagement between the aligning element 2c, 2d and the corresponding seat 5a, 5b of the holding devices 4a, 4b. The respective alignment element's cone-shaped surface 2c1(2di) adjoins a cylindrical surface 2c2,2d2 on the alignment element.

Various steps in the assembly of a pipeline 2 to a pipeline connection frame 1 according to the invention are shown in Fig. 2-5. The pipeline 2 provided with a pipeline termination 2f of the above-mentioned type is initially laid on the seabed. The pipeline end section 2a is then moved a short distance laterally away from its original path. The coupling frame 1 is lowered into the sea, for example from a surface vessel, and is placed on the seabed near the pipeline end section 2a with the seats 5a, 5b of the holding devices 4a, 4b situated mainly vertically above the space occupied by the pipeline end section before it was moved laterally and with the seats 5a, 5b centreline running mainly parallel to and above the original pipeline path, as shown in Fig. 2.1 in this position the first alignment element 2c and the pipeline boss 2b must be located in front of the first holding device 4a, while the second alignment element 2d must be located between the first holding device 4a and the second holding device 4b, seen in the longitudinal direction of the pipeline end section 2a. Next, the pipeline end section 2a is lifted and moved laterally back to a position vertically above its original path so that it lies directly above the seats 5a, 5b, after which the pipeline end section is lowered in a direction substantially perpendicular to its own longitudinal axis through the respective holding device opening 6a, 6b (see Fig. 3) to thereby be accommodated in the seats 5a, 5b. In this position (see Fig. 4), the first aligning element 2c lies in front of the first holding device 4a, while the second aligning element 2d lies between the holding devices 4a, 4b. In order to fix the pipeline end section 2a axially and radially relative to the coupling frame 1, the coupling frame is displaced relative to the pipeline end section 2a from the position shown in Fig. 4 to the position shown in

Fig. 5. The coupling frame 1 is preferably moved by pulling it. The coupling frame 1 is displaced in the longitudinal direction of the pipeline hinge end section 2a, so that the seat 5a of the first holding device engages with the first aligning element 2c and the second holding device engages with the second aligning element 2d. The respective alignment element 2c, 2d is designed for

engagement with the corresponding seat 5a, 5b in such a way that the aligning element is locked in the radial direction in relation to the associated holding device 4a, 4b. The coupling frame 1 is displaced along the pipeline end section 2a until the flange 2e comes into contact with the corresponding stop 9 on the first holding device 4a, as shown in Fig. 5 and 6. The locking elements 8a, 8b of the locking means 8 are then activated to lock the flange 2e in place between the respective locking element 8a, 8b and stop 9.

In the embodiment shown, the coupling frame 1 is equipped with a landing platform 13. This landing platform 13 is constructed in such a way that an ROV can be landed on it in connection with maintenance and inspection. The landing platform 13 is here rotatably connected to the first holding device 4a, so that the landing platform can be turned away from the space above the opening 6a of the seat 5 in connection with the installation of a pipeline end section 2a to the connecting frame 1.

The connecting frame 1 shown in Fig. 1-6 is intended to cooperate with the pipe fitting connecting structure 20 which is to be fitted to a pipe fitting 21 in order to thereby support a pipe fitting 21 during the connection of an associated pipe fitting boss 21b to a corresponding pipeline boss 2b. An embodiment of such a pipe fitting coupling construction 20 is shown in Fig. 7. The pipe fitting coupling construction 20 comprises a clamping device 22 for clamping a pipe line boss 2b and a corresponding pipe fitting boss 21b. The pipe fitting boss 21b and the associated pipe fitting 21 must be assembled to the pipe fitting coupling construction 20 before they are immersed in the sea from a surface vessel. The pipe fitting boss and the pipe fitting are thus fitted to the coupling structure before carrying out a coupling operation. In the embodiment shown, the clamping device 22 is attached to a vertical support plate 23 which forms part of the connection structure's support frame 24. The pipe fitting connection structure 20 is designed to be able to be connected to the pipeline connection frame 1 by being lowered onto the pipeline connection frame so that it comes into contact against this one. The pipeline coupling frame 1 and the pipe fitting coupling structure 20 are designed to be able to be displaced relative to each other when the pipe fitting coupling structure 20 is brought into contact with the pipeline coupling frame 1 to thereby allow the pipe fitting boss 21b and a pipeline boss 2b to be attached to the pipeline coupling frame 1 and are mutually displaced into contact with each other. This will be described in more detail below in connection with Fig. 8-10.

The pipe fitting coupling structure 20 shown in Fig. 7 is equipped with control or guide devices 31, 32 which are designed to engage with the pipeline coupling frame 1 when the pipe fitting coupling structure 20 is lowered into engagement with the pipeline coupling frame, thereby ensuring that the pipe fitting coupling structure 20 is correctly engaged and positioned on the pipeline connection frame 1. The pipe fitting connection structure 20 is here equipped with a first control device 31 comprising two tapered control elements 31a, 31b which project down from the support frame 24 of the pipe fitting connection structure 20, and which are designed for engagement with the pipeline -coupling frame 1 support frame 7. A stop 34 between the control elements 31a, 31b is designed for abutment against a plate-shaped seat 14 which is arranged on the pipeline-coupling frame 1 support frame 7.1 the embodiment shown, the pipe fitting-coupling structure 20 is further equipped with a second control device 32 in the form of a steering funnel that is designed for in grip with a corresponding guide post 17 which is arranged on the pipeline connection frame's support frame 7. In order for the support frame 24 of the pipe fitting connection structure 20 and thereby the pipe fitting boss 21 b to be able to be moved along the pipeline connection frame 1 towards a pipeline boss 2b mounted on the connection frame 1, the guide funnel 32 is displaceable connected to the support frame 24 of the pipe fitting coupling structure 20. The control funnel 32 is releasably locked in place in relation to the coupling structure's support frame 24 by means of a locking element 33, for example in the form of a locking pin.

The pipeline coupling frame 1 and the pipe fitting coupling structure 20 are provided with corresponding alignment members 15, 25 which are designed to come into contact with each other when the coupling structure 20 is displaced against a pipeline boss 2b attached to the pipeline coupling frame 1 for sufficient [see page 11, line 35 ] sufficient (to properly align) alignment of the pipeline boss 2b in relation to the pipe fitting boss 21b. One of the pipeline coupling frame 1 and the pipe fitting coupling structure 20 is suitably equipped with at least one male-like aligning element 15, preferably in the form of a spear, which is designed to fit into a corresponding female-like aligning element 25, preferably in the form of a spear funnel, arranged on the other of the coupling frame 1 and the coupling structure 20.1 the embodiment shown, the pipeline coupling frame 1 is equipped with two alignment spears 15 arranged in the coupling frame 1 so that they lie below and on either side of the center line of a pipeline end section 2a mounted to the coupling frame 1. The pipe fitting coupling structure 20 is here equipped with two spigots 25 which are to accommodate each of the alignment spigots 15. The spigots 25 are located on either side of the center line of a pipe fitting boss 21 b mounted on the coupling structure 20. The respective alignment element 15 of the pipeline coupling frame 1 is preferably designed for installation against the pipe fitting connector construction s corresponding alignment element 25 when the pipe fitting boss 21b has been displaced into contact with the pipeline boss 2b to thereby align the boss contact rafts before their mutual contact for final alignment.

The pipeline connection frame 1 is preferably also provided with at least two stop elements 16 which are arranged in the connection frame so that they lie above and on either side of the center line of a pipeline end section 2a mounted on the connection frame. The respective abutment element 16 is designed to rest against a corresponding abutment element 26 on the pipe fitting coupling structure 20 when the pipe fitting boss 21b is moved into contact with the pipeline boss 2b to thereby reduce the angle between the interacting boss end surfaces. Thereby, the pipeline boss 2b will automatically be sufficiently aligned in line with the pipe fitting boss 21b to come within the clamping device's closing catch area. In the embodiment shown, both the pipeline-connecting frame 1 and the pipe fitting-connecting construction 20 are equipped with two such stop elements 16,26 in addition to the corresponding function included in the aligning elements 15,25.

The pipe fitting coupling structure 20 and the pipeline coupling frame 1 are equipped with means for receiving a remotely controlled coupling tool (not shown), equipped with force application means, preferably in the form of hydraulic cylinders, for displacing the pipe fitting coupling structure 20 and the coupling frame 1 in relation to each other. The clamping device 22 is preferably designed to be displaced relative to the coupling frame 1 by being displaced together with the support frame 24 of the pipe fitting coupling structure 20 relative to the coupling frame. In the embodiment shown, both the pipeline-connecting frame 1 and the pipe fitting-connecting structure 20 are designed with slots 19, 29 for docking hydraulic cylinders on the connecting tool to said structures. The coupling tool is also provided with force application means, preferably hydraulically driven, for actuating the clamping means 22 for clamping the pipeline boss 2b and the pipe fitting boss 21 b. The coupling tool is preferably constructed as a separate unit which is lowered into engagement with the pipeline coupling frame 1 and the pipe fitting coupling structure 20 after the coupling structure has been placed on the connecting frame.

In the embodiment shown, the pipe fitting coupling construction 20 is equipped with control means 30 which are designed to cooperate with corresponding control means on the coupling tool, in order to thereby control the coupling tool to the correct position in relation to the coupling construction 20 when the coupling tool is lowered into engagement with the coupling construction. In the embodiment shown, the control means of the coupling structure 20 comprise two guide post receivers 30 which are arranged in the coupling structure 20 so that they are located on either side of the pipe fitting 21. The respective guide post receiver 30 is designed to receive a guide post, by means of which the coupling tool is controlled to engage with the coupling structure 20.

The operation of the coupling device comprising a pipe fitting coupling construction 20 according to Fig. 7 and a pipeline coupling frame 1 according to Figs. 1-6 is schematically shown in Figs. 8-10. The pipeline 2 is first mounted to the pipeline connection frame 1 as described above with reference to Fig. 2-5. Underwater metrology can then be carried out between the pipeline boss 2b and the permanent underwater installation to which the pipeline is to be connected. The results from the underwater metrology are used to complete the geometry of the pipe fitting 21, which is mounted on the pipe fitting coupling structure 20. The coupling structure 20, together with the associated pipe fitting 21, is submerged in the sea, for example by means of straps that are attached to the pipe fitting from a surface vessel, and the is lowered onto the pipeline-connecting frame 1 so that it comes into contact with its support frame 7. A control cable 40 which is attached to the pipeline-connecting frame 1's control post 17 will assist in the control to ensure capture of the pipe fitting-connecting structure's 20 control funnel 32 above the control post 17 as shown in Fig. 8.1 Fig. 9, the pipe fitting coupling structure 20 is shown after it is engaged on the pipeline coupling frame 1 support frame 7. A coupling tool, not shown, comprising a pair of impact cylinders, is then lowered into contact with the pipe fitting coupling structure 20 and the pipeline coupling frame 1. The coupling tool can be steered into position using a v not shown guide posts which are introduced into the guide post receivers 30 of the coupling structure 20. The impact cylinders are connected to the pipe fitting coupling structure 20 and the pipeline coupling frame 1 via the docking slots 29,19 which are arranged therein. The impact cylinders are then activated to displace the support frame 24 of the pipe fitting coupling structure 20 and thereby the clamping device 22 against the pipeline boss 2b which is mounted on the pipeline coupling frame 1. Before activating the impact cylinders, the locking element 33 is released so that the support frame 24 of the pipe fitting coupling structure 20 can be displaced relative to the guide funnel 32. When the displacement operation is complete, a torsion application device, not shown, is brought to actuate the clamping device 22 to thereby clamp the pipeline boss 2b and the pipe fitting boss 21b, after which a pressure test is performed to determine the integrity of the seal. The coupling tool is then pulled up to the surface. Fig. 10 shows the coupling device after complete connection of the pipeline boss to the pipe fitting boss.

The torque application device can be part of the coupling tool or form a separate unit which can be moved into contact with the pipe fitting coupling structure separately from the coupling tool.

The invention is of course not limited in any way to the preferred embodiments described above. On the contrary, many possibilities for modifications of this will be obvious to an ordinary expert in the field without deviating from the main idea of the invention as stated in the accompanying claims.

Claims (26)

1. Pipeline connector frame adapted to be mounted on a pipeline end section to support the pipeline end section during connection of an associated pipeline boss to a corresponding pipe fitting boss, the pipeline connector frame (1) comprising one or more holding devices (4a, 4b) for fastening of the pipeline end section and the associated pipeline boss to the pipeline connection frame in a predetermined orientation relative to the pipeline connection frame, characterized by: - that the respective holding device (4a, 4b) is equipped with a seat (5a, 5b) which has an upward opening (6a, 6b) through which the pipeline end section can be introduced under water by being submerged in a direction substantially perpendicular to its own longitudinal axis to thereby be accommodated in the seat (5a, 5b), and - that the seat (5a, 5b) of the respective holding device (4a, 4b) is designed for engagement with an alignment element that is attached around the pipeline end section when the pipeline-connecting frame is displaced (1) in relation to a pipeline end section which is occupied in the seat (5a, 5b) of the respective holding device (4a, 4b) in the longitudinal direction of the pipeline end section in order thereby to fix the pipeline end section axially and radially in relation to the pipeline connection frame ( 1). 2. Pipeline connection frame according to claim 1, characterized in that the pipeline-connecting frame (1) is equipped with locking means (8) for locking a pipeline end section axially in relation to the pipeline-connecting frame (1) when the seat (5a, 5b) of the respective holding device (4a, 4b) has come into fixing engagement with the pipeline end section's corresponding alignment element. 3. Pipeline connection frame according to claim 2, characterized in that the locking means (8) are arranged on a holding device (4a). 4. Pipeline connection frame according to one of the preceding claims, characterized in that the pipeline connection frame (1) is equipped with at least two holding devices (4a, 4b) with seats (5a, 5b) which are arranged flush with each other. 5. Pipeline connection frame according to one of the preceding claims, characterized in that the width of the respective seat's (5a, 5b) upward facing opening (6a, 6b) is smaller than the diameter of the seat. 6. Pipeline connection frame according to one of the preceding claims, characterized in that the respective holding device (4a, 4b) is equipped with two opposing guide surfaces (10a, 10b) which are connected to the upwardly facing opening (6a, 6b) to the seat of the holding device ( 5a, 5b) and which slope towards each other in a downward direction to assist in guiding a pipeline end section through the opening (6a, 6b) and into the seat of the holding device (5a, 5b). 7. Pipeline connection frame according to one of the preceding claims, characterized in that the pipeline connection frame (1) comprises a support frame (7) to which the respective holding device (4a, 4b) is attached, the support frame (7) being designed to allow the pipeline-connecting frame rests on the seabed. 8. Pipeline connection frame according to one of the preceding claims, characterized in that the seat (5a, 5b) of the respective holding device (4a, 4b) is designed for engagement with a rotationally symmetrical alignment element which is fixed around the pipeline end section, the seat (5a, 5b ) has a shape that allows the seat to cooperate with the rotationally symmetrical arrangement ing element. 9. Coupling device for underwater connection of a pipeline to a pipe fitting by clamping together a pipeline boss which is attached to an end section of the pipeline and a pipe fitting boss which is attached to an end section of the pipe fitting, characterized by: • that the coupling device comprises a pipeline coupling frame (1) according to one of the preceding claims 1-8, - that the coupling device comprises a pipe fitting coupling structure (20) which is to be fitted to a pipe fitting in order to support a pipe fitting boss during the connection of the pipe fitting boss to a corresponding pipeline boss, the pipe-fitting-piece-connecting structure (20) comprising a key device (22) for clamping the pipe-fitting-piece boss bg the pipeline boss, - that the pipe-fitting-piece-connecting structure (20) is designed to be connected to the pipe-line-connecting frame (1 ) by being lowered onto the pipeline-connecting frame so that it comes into contact with it, and - that the pipeline-connecting frame (1) and the pipe fitting-connecting structure (20) are designed to allow displacement relative to each other when the pipe fitting-connecting structure (20) has come into contact with the pipeline connection frame (1) so that the clamping device (22) and a pipe fitting's pipe fitting s (21b) fixed with the pipe fitting coupling structure (20) is allowed to be slidable against the pipeline boss of a pipeline end section attached to the pipeline coupling structure (1) to bring the bosses into contact with each other. 10. Coupling device according to claim 9, characterized in that the pipeline-connecting frame (1) and the pipe fitting-connecting structure (20) are equipped with corresponding alignment elements (15, 25) which are designed to allow contact with each other when the pipe fitting-connecting structure (20) and the pipeline-connecting frame (1) are displaced in relation to each other in order to align the boss contact surfaces opposite each other. 11. Coupling device according to claim 10, characterized in that one of the pipeline-connecting frame (1) and the pipe fitting-piece-connecting structure (20) is equipped with at least one male-like aligning element (15), preferably in the form of a spear, which is designed to fit into a corresponding female-like element (25), preferably in the form of a spear funnel, which is arranged on the other of said pipeline-connecting frame and pipe fitting-connecting construction. 12. Coupling device according to claim 10 or 11, characterized in that the pipeline connection frame (1) is equipped with at least two alignment elements (15) arranged in the pipeline coupling frame (1) so as to lie below and on either side of the center line of a pipeline end section attached to the pipeline coupling frame (1). 13. Coupling device according to one of claims 10-12, characterized in that the respective aligning element (15) of the pipeline-connecting frame (1) is designed to abut against the corresponding aligning element (25) of the pipe fitting-connecting structure (20) when the pipe fitting boss is displaced into contact with the pipeline boss, so that the boss contact surfaces are straightened in relation to each other before their mutual contact for final creation. 14. Coupling device according to one of claims 10-13, characterized in that the pipeline-connecting frame (1) is equipped with at least two stop elements (16) which are arranged in the pipeline-connecting frame (1) so that they lie above and on either side of the center line of a pipeline end section which is attached to the pipeline-connecting frame, the respective stop element (16) is designed to rest against a corresponding stop element (26) on the pipe fitting connection structure (20) when the pipe fitting boss is displaced into contact with the pipeline boss so that the boss contact surfaces are straightened in relation to each other before their mutual contact for final alignment. 15. Coupling device according to one of claims 9-14, characterized in that the pipe fitting coupling structure (20) and the pipeline coupling frame (1) are designed to accommodate a remotely controlled coupling tool equipped with force application means for displacing the pipe fitting coupling structure (20) and the pipeline coupling frame (1) relative to each other. 16. Coupling device according to claim 15, characterized in that the pipe fitting coupling construction (20) is equipped with control means (30) which are designed to cooperate with corresponding control means on the coupling tool in order to control the coupling tool to the correct position in relation to the pipe fitting coupling construction when the coupling tool is lowered into contact with the pipe fitting coupling construction. 17. Coupling device according to one of claims 9-16, characterized in that the pipe fitting coupling construction (20) comprises a support frame (24) to which the clamping device (22) is mounted, and that the pipe fitting connector structure (20) is displaceable in relation to the pipeline connection frame (1) by being displaced together with the support frame (24) of the pipe fitting connector structure (20) in relation to to the pipeline connection structure (1). 18. Method for underwater connection of a pipeline (2) to a pipe fitting (21) by clamping a pipeline boss (2b) which is attached to an end section (2a) of the pipeline and a pipe fitting boss (21b) which is attached to an end section of the pipe fitting (21), where the following steps are performed: - the pipeline end section (2a) is attached to a pipeline connection frame (1) according to one of claims 1-8 by immersing the pipeline end section in a direction substantially perpendicular to its own longitudinal axis into the respective holding device's (4a, 4b) seat (5a, 5b) and then displace the pipeline-connecting frame (1) in relation to the pipeline end section (2a) in its longitudinal direction so that the seat (5a, 5b) of the respective holding device (4a, 4b) is brought into engagement with an alignment element fixed around the pipeline end section to thereby fix the pipeline end section axially and radially in relation to the pipeline coupling frame (1), - a pipe fitting coupling structure (20) as a pipe fitting the yoke boss (21b) is mounted to and which includes a clamping device (22), is connected to the pipeline-connecting frame (1) by being lowered onto the pipeline-connecting frame to abut against this, - the pipe fitting-connecting structure (20) and the pipeline-connecting frame (1) are displaced in relation to each other so that the pipe fitting boss (21b) and the pipeline boss (2b) are brought into contact with each other, - after which the clamping device (22) is activated to clamp the pipeline boss (2b) and the pipe fitting boss (21b). 19. Method according to claim 18, characterized in that the seat (5a, 5b) of the pipeline-connecting frame's respective holding device (4a, 4b) is brought into engagement with a rotationally symmetrical alignment element (2c, 2d) which is fixed around the pipeline end section (2a) during the displacement of the pipeline-connecting frame in the longitudinal direction of the pipeline end section. 20. Method according to claim 18 or 19, characterized in that the corresponding alignment elements (25,15) of the pipe fitting-connecting structure (20) and the pipeline-connecting frame (1) are brought into contact with each other when the pipe fitting-connecting structure (20) and the pipeline-connecting frame (1) are displaced relative to each other for sufficient alignment of the pipeline boss (2b) in relation to the pipe fitting boss (21b). 21. Method according to one of claims 18-20, characterized in that the pipe fitting-connecting structure (20) and the pipeline-connecting frame (1) are displaced in relation to each other by means of a remote-controlled coupling tool which is provided with force application means for displacing the pipe fitting-connecting structure (20) and the pipeline-connecting frame (1) in relation to each other. 22. Method according to one of claims 18-21, where the clamping device (22) is mounted to the support frame (24) of the pipe fitting connector structure (20), characterized in that the pipeline boss (2b) and the pipe fitting boss are brought into contact with each other by being displaced together with the support frame (24) of the pipe fitting connection structure (20) in relation to the pipeline connection structure (1). 23. Pipeline termination adapted to be used in connection with "appliceras" on the end section (2a) of a pipeline to thereby allow underwater connection of the pipeline to a pipeline coupling frame according to one of claims 1-8, the pipeline end section (2f) comprising a pipeline boss ( 2b) which is designed for connection to a corresponding pipe fitting boss, characterized in that the pipeline termination (2f) further comprises a first aligning element (2c) which is attached to the pipeline end section (2a) behind the pipeline boss (2b) and designed to cooperate with a seat in a first holding device in the pipeline-connecting frame (1), and a second alignment member (2d) which is attached to the pipeline end section (2a) behind the first alignment member (2c) at a distance therefrom and designed to cooperate with a seat in a second holding device in the pipeline coupling frame. 24. Pipeline termination according to claim 23, characterized in that the respective alignment element (2c, 2d) is rotationally symmetrical. 25. Pipeline termination according to claim 23 or 24, characterized in that the pipeline termination (2f) comprises a flange (2e) which is attached to the pipeline end section (2a), which flange (2e) is designed to cooperate with locking means on the pipeline coupling frame to fix the pipeline end section axially in relation to the pipeline coupling frame. 26.. Pipeline termination according to claim 25, characterized in that the flange (2e) is an integral part of the pipeline boss (2b).